EP3114141A1 - Für insulinähnlichen wachstumsfaktor-1-rezeptor spezifische antikörper und verwendungen davon - Google Patents
Für insulinähnlichen wachstumsfaktor-1-rezeptor spezifische antikörper und verwendungen davonInfo
- Publication number
- EP3114141A1 EP3114141A1 EP14884789.0A EP14884789A EP3114141A1 EP 3114141 A1 EP3114141 A1 EP 3114141A1 EP 14884789 A EP14884789 A EP 14884789A EP 3114141 A1 EP3114141 A1 EP 3114141A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- fragment
- antibody
- igf1
- isolated
- purified antibody
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
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- C07K2317/52—Constant or Fc region; Isotype
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/50—Immunoglobulins specific features characterized by immunoglobulin fragments
- C07K2317/56—Immunoglobulins specific features characterized by immunoglobulin fragments variable (Fv) region, i.e. VH and/or VL
- C07K2317/565—Complementarity determining region [CDR]
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/50—Immunoglobulins specific features characterized by immunoglobulin fragments
- C07K2317/56—Immunoglobulins specific features characterized by immunoglobulin fragments variable (Fv) region, i.e. VH and/or VL
- C07K2317/569—Single domain, e.g. dAb, sdAb, VHH, VNAR or nanobody®
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/60—Immunoglobulins specific features characterized by non-natural combinations of immunoglobulin fragments
- C07K2317/64—Immunoglobulins specific features characterized by non-natural combinations of immunoglobulin fragments comprising a combination of variable region and constant region components
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/70—Immunoglobulins specific features characterized by effect upon binding to a cell or to an antigen
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/70—Immunoglobulins specific features characterized by effect upon binding to a cell or to an antigen
- C07K2317/77—Internalization into the cell
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/90—Immunoglobulins specific features characterized by (pharmaco)kinetic aspects or by stability of the immunoglobulin
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/90—Immunoglobulins specific features characterized by (pharmaco)kinetic aspects or by stability of the immunoglobulin
- C07K2317/92—Affinity (KD), association rate (Ka), dissociation rate (Kd) or EC50 value
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/90—Immunoglobulins specific features characterized by (pharmaco)kinetic aspects or by stability of the immunoglobulin
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- G—PHYSICS
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- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2333/00—Assays involving biological materials from specific organisms or of a specific nature
- G01N2333/435—Assays involving biological materials from specific organisms or of a specific nature from animals; from humans
- G01N2333/705—Assays involving receptors, cell surface antigens or cell surface determinants
- G01N2333/71—Assays involving receptors, cell surface antigens or cell surface determinants for growth factors; for growth regulators
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2333/00—Assays involving biological materials from specific organisms or of a specific nature
- G01N2333/435—Assays involving biological materials from specific organisms or of a specific nature from animals; from humans
- G01N2333/705—Assays involving receptors, cell surface antigens or cell surface determinants
- G01N2333/72—Assays involving receptors, cell surface antigens or cell surface determinants for hormones
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- G—PHYSICS
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2800/00—Detection or diagnosis of diseases
- G01N2800/28—Neurological disorders
Definitions
- the present invention relates to Insulin-Like Growth Factor 1 Receptor-specific antibodies, fragments thereof, and uses thereof. More specifically, the present invention relates to Insulin- Like Growth Factor 1 Receptor-specific antibodies and fragments thereof that transmigrate the blood-brain barrier, and uses thereof.
- BBB blood-brain barrier
- the integrity of the BBB may be disrupted, resulting in a leaky BBB, which in turn 14 000861 allows for unrestricted, paracellular entry of larger molecules into the brain.
- Tight junctions can be successfully loosened or disrupted by various approaches. For example, injection of substances that induce osmotic shock (for example, mannitol, hypertonic solutions) into the blood stream causes cell shrinkage and results in the disruption of tight junctions, therefore severely compromising the BBB (Guillaume, 2010).
- modulators of tight junctions include alkylglycerols, bradykinin and several analogues thereof, as well as viruses that modulate expression of proteins involved in maintaining the tight junctions (Erdlenbruch et al., 2003; Preston et al., 2008; Gan et al., 2013).
- a more localized disruption of the BBB is possible through application of ultrasound (Nhan et al., 2013).
- the periods during which the BBB is disrupted are sufficient to alter brain homeostasis and allow harmful chemicals, toxins and pathogens to enter the brain; this can result in serious side-effects, e.g., seizures and brain swelling, infection and possibly permanent neuropathological changes.
- repeated treatments with these techniques for chronic and diffuse brain diseases affecting multiple brain regions are not practical. Most of these treatments are costly, necessitate hospitalisation, and some approaches require anesthesia.
- CSF cerebrospinal fluid
- CED convection-enhanced diffusion
- any type of direct injection into the brain or intracerebral implant is an invasive and costly procedure, as it requires hospitalization, anesthesia, and often surgery.
- the poor diffusion rates of the therapeutics, particularly large biologies, within brain parenchyma limit the penetration of therapeutics to only small areas surrounding the site of injection/implantation.
- the correct placement of injections, catheters, and implants is challenging yet crucial to achieve diffusion of the drug to the targeted region of the brain. Additionally, catheters and implants provide a site for infection and/or immune response against the foreign material.
- CNS drugs have been modified to increase their brain uptake. Such modifications can include a change of their surface charge, a reduction in molecule size, and change to the lipohilicity of the drugs.
- any modifications to increase brain penetration are also likely to alter the overall pharmacology of the drug, including its desired activity and/or specificity.
- lipophilic molecules are more prone to being exported from the brain through the P-glycoprotein efflux pump.
- Endocytosis is triggered upon binding of the specific ligand to its receptor, or upon electrostatic interaction between the cationic ligand or drug and the anionic functional groups on the brain endothelial cell surface (luminal side), respectively. Subsequently, the newly formed endosome is transcytosed across the cell to the abluminal side, to release its cargo.
- adsorptive mediated transcytosis is non-specific, charge-mediated interaction, it occurs in all vascular beds and organs, limiting the availability of drug for brain delivery. Therefore, exploiting the RMT pathway remains the only physiological, non-invasive yet highly receptor-specific brain delivery method.
- TfR transferrin receptor
- IR insulin receptor
- LRP-1 and -2 low-density lipoprotein receptor related proteins 1 and 2
- TMEM30A diphtheria toxin receptor
- Peptides, natural ligands, and antibodies or antibody fragments have been developed that bind to these receptors (Pardridge et al., 1991 ; Yu et al., 2011 ; Muruganandam et al., 2001 ; Abulrob et al., 2005; Demeule, 2008; Sumbria et al., 2013), functioning as drug-to- brain transporters that utilize endogenous RMT pathways.
- Angiopep ANG1005 targeting LRP-1
- the RMT pathway appears to be the most promising pathway for drug transport to the brain, but current approaches have limitations, including: non-selective expression of the target receptor at the BBB, competition between the carrier and the natural ligands to the receptor, ineffective transcytosis of a receptor as well as lysosomal degradation of endocytosed carriers (Xiao and Gun, 2013).
- BBB carriers delay the development of new therapeutics and diagnostics for diseases originating in the brain, including brain tumors and neurodegenerative diseases.
- the present invention relates to Insulin-Like Growth Factor 1 Receptor (IGF1 R) -specific antibodies and uses thereof. More specifically, the present invention relates to Insulin-Like Growth Factor 1 Receptor-specific antibodies and fragments thereof that transmigrate the blood-brain barrier, and uses thereof.
- the present invention provides isolated or purified antibodies or fragments thereof specifically binding to an Insulin-Like Growth Factor 1 Receptor (IGF1 R) epitope, wherein the antibody or fragment thereof transmigrates the blood-brain barrier, and wherein the epitope is specifically bound by the antibody of SEQ ID NO:5.
- the IGF1 R epitope may be in the extracellular domain of IGF1 R.
- the present invention further provides isolated or purified antibodies or fragment thereof, comprising a complementarity determining region (CDR) 1 sequence of GGTVSPTA (SEQ ID NO:1 ); a CDR2 sequence of ITWSRGTT (SEQ ID NO:2); and a CDR3 sequence of AASTFLRILPEESAYTY (SEQ ID NO:3), wherein the antibody or fragment thereof specifically binds to the Insulin-Like Growth Factor 1 Receptor (IGF1 R).
- CDR complementarity determining region
- the isolated or purified antibody or fragment thereof specific for IGF1 R may be
- the isolated or purified antibody may comprise a sequence selected from the group consisting of:
- IGF1R-4 QVKLEESGGGLVQAGGSLRLSCEVSGGTVSPTAMGWFRQAPGKEREFVGHITWSR GTTRVASSVKDRFTISRDSAKNTVYLQMNSLKSEDTAVYYCAASTFLRILPEESAYTY WGQGTQVTVSS (SEQ ID NO:5), referred to herein as IGF1R-4;
- IGF1 R-4_H4 QVQLVESGGGLVQPGGSLRLSCAVSGGTVSPTAMGWFRQAPGKGLEFVGHITWSR GTTRYASSVKGRFTISRDSSKNTVYLQMNSLRAEDTAVYYCAASTFLRILPEESAYTY WGQGTLVTVSS (SEQ ID NO:8), referred to herein as IGF1 R-4_H4;
- the isolated or purified antibody or fragment thereof as described above may be a single- domain antibody (sdAb); the sdAb may be of camelid origin.
- the isolated or purified antibody or fragment thereof of the present invention may be presented in a multivalent display format.
- the antibody or fragment thereof may be linked to a Fc fragment; the Fc fragment is the mouse Fc2b or human Fc1.
- the isolated or purified antibody or fragment thereof in multivalent display may comprise the sequence of SEQ ID NO: 10 (referred to herein as IGF1 R-4 consensus-Fc fusion), SEQ ID NO:39 (referred to herein as Fc-IGF1 R-4 consensus fusion), or 11 (referred to herein as IGF1 R-4-Fc fusion).
- the isolated or purified antibody or fragment thereof as described herein may transmigrate the blood-brain barrier.
- the present invention also provides a nucleic acid molecule encoding the isolated or purified antibody or fragment thereof as described herein.
- a vector comprising the nucleic acid molecule as just described is also provided.
- the isolated or purified antibody or fragment thereof as described herein may be immobilized onto a surface.
- the present invention further provides the isolated or purified antibody or fragment thereof as described herein linked to a cargo molecule; the cargo molecule may have a molecular weight in the range of about 1kD to about 200 kDa.
- the cargo molecule linked to the antibody or fragment thereof may be a detectable agent, a therapeutic, a drug, a peptide, a growth factor, a cytokine, a receptor trap, a chemical compound, a carbohydrate moiety, an enzyme, an antibody or fragments thereof, a DNA-based molecule, a viral vector, or a cytotoxic agent; one or more liposomes or nanocarriers loaded with a detectable agent, a therapeutic, a drug, a peptide, an enzyme, and antibody or fragments thereof, a DNA-based molecule, a viral vector, or a cytotoxic agent; or one or more nanoparticle, nanowire, nanotube, or quantum dots.
- the present invention provides a composition comprising one or more than one isolated or purified antibody
- An in vitro method of detecting IGF1 R comprising a) contacting a tissue sample with one or more than one isolated or purified antibody or fragment thereof of as described herein linked to a detectable agent; and b) detecting the detectable agent detecting the detectable agent linked to the antibody or fragment thereof bound to IGF1 R in the tissue sample.
- the sample may be a serum sample, a vascular tissue sample, tumour tissue sample, or a brain tissue sample from a human or animal subject.
- the step of detecting (steb b)) may be performed using optical imaging, immunohistochemistry, molecular diagnostic imaging, ELISA, imaging mass spectrometry, or other suitable method.
- an in vivo method of detecting IGF1 R expression in a subject comprising: a) administering one or more than one isolated or purified antibody or fragment thereof as described herein linked to a detectable agent to the subject; and b) detecting the detectable agent linked to the antibody or fragment thereof bound to IGF1 R.
- the step of detecting may be performed using PET (positron emission tomography), SPECT (single-photon emission computed tomography), fluorescence imaging, or any other suitable method.
- BBB blood-brain barrier
- the molecule of interest may have a molecular weight in the range of about 1kD to about 200 kDa; the molecule of interest may be a detectable agent, a therapeutic, a drug, a peptide, a growth factor, a cytokine, a receptor trap, a chemical compound, a carbohydrate moiety, an enzyme, an antibody or fragment thereof, a DNA-based molecule, a viral vector, or a cytotoxic agent; one or more liposomes or nanocarriers loaded with a detectable agent, a therapeutic, a drug, a peptide, an enzyme, an antibody or fragment thereof, or a cytotoxic agent; or one or more nanoparticle, nanowire, nanotube, or quantum dots.
- the administration may be intravenous (iv), subcutaneous (sc), or intramuscular (im).
- the invention also encompasses a method of quantifying an amount of a cargo molecule delivered across the BBB of a subject, wherein the cargo molecule is linked to one or more than one isolated or purified antibody or fragment thereof as described herein, the method comprising a) collecting cerebrospinal fluid (CSF) from the subject; and b) using targeted proteomics methods to quantify the amount of the cargo molecule linked to one or more than one isolated or purified antibody or fragment in the CSF.
- CSF cerebrospinal fluid
- the cargo molecule may be any desired molecule, including the cargo molecules previously described; the antibody or fragment thereof transmigrates the BBB; and the molecule may be "linked" to the antibody or fragment thereof, as previously described.
- the CSF is collected from a subject using any suitable method known in the art.
- the amount of CSF required for targeted proteomics method in step b) may be between about 1 to 10 ⁇ .
- the targeted proteomics methods used to quantify the amount of the one or more than antibody or fragment thereof linked to the cargo molecule may be any suitable method known in the art.
- the targeted proteomics method may be a mass spectrometry method, such as multiple reaction monitoring - isotype labeled internal standards (MRM - ILIS).
- an IGF1 R-binding V H H has been produced that provides an effective transport platform for delivery of drugs conjugated to the antibody across the BBB to their targets in the brain.
- the presently described antibody exploits the natural RMT pathway of the IGF1 R from the luminal to abluminal side of the BBB-forming brain endothelial cells.
- the results show that the anti-IGF1 R VHH can be expressed in fusion with Fc (fragment crystallisable) fragment to prolong circulation half-life by about 75 fold (about 25h compared to about 20 min for V H H alone).
- This high molecular weight fusion construct (about 80kDa) is also efficiently transported across the BBB.
- the conjugate is readily detected in brain parenchyma using immunofluorescence detection.
- the results demonstrate that the IGF1 R V H H carrier can "ferry" large molecules (similar in size to: antibodies, enzymes, growth factors, peptides, cytokines, receptor traps) across the BBB.
- the antibody-delivery may not only be useful for short term treatment (e.g. epileptic seizure), but may also be useful for medium-term (e.g. cancer) and long-term (e.g. Alzheimer's or Parkinson's disease) treatments.
- short term treatment e.g. epileptic seizure
- medium-term e.g. cancer
- long-term e.g. Alzheimer's or Parkinson's disease
- FIGURE 1 is a schematic diagram of the insulin-like growth factor 1 receptor (IGF1 R).
- the IGF1 R is found on the cell surface, and comprises two subunits: the alpha subunit and the beta subunit.
- the alpha subunit (comprising an extracellular part with the insulin-like growth factor 1 binding site) is connected by a disulphide bond to the beta subunit (comprising a small extracellular domain, a transmembrane region, and an intracellular portion).
- the IGF1 receptor can form a dimer.
- FIGURE 2 shows the sequence of IGF1 (SwissProt Accession No. P08069).
- the 933 amino acid long protein fragment used for immunization and panning is shown in bold; the full ectodomain is 2 amino acids longer.
- the furin cleavage site, separating alpha and beta subunits, is shown in italicized lowercase letters.
- the signal peptide is shown in bold italics.
- FIGURE 3A shows a size exclusion chromatogram of the IGF1 R-binding V H H IGF1 R-4 and its humanized variants (H1 , H2, H3, H4, H5, H6) run through a Superdex 75 column. The profile suggests that all the V H Hs except IGF1 R H1 are monomeric and non-aggregating.
- FIGURE 3B shows the melting temperature (T m ) as determined by circular dichroism (CD) for IGF1 R-4 V H H and its humanized variants (H2, H3, H4, H5, H6). The proteins were heated to above 90 ° C and measurements were taken in the CD instrument to determine the melting curve (top curve) and the T m .
- CD circular dichroism
- FIGURE 3C shows a surface plasmon resonance (SPR) sensogram overlay for binding of 0.1 - 5 nM IGF1 R-4 V H H and its humanized variants (H2, H3, H4, H5, H6) to the recombinant extracellular portion of the human IGF1 R fragment. The data fit well to a 1 :1 model.
- SPR surface plasmon resonance
- FIGURE 3D shows SPR sensograms of IGF1 R-4 V H H binding to the recombinant extracellular portion of the human IGF1 R fragment in presence of IGF1.
- IGF1 in 100-fold excess did not affect IGF1 R-4 V H H binding, showing that both bind to different epitopes on the receptor.
- FIGURE 3E shows that IGF1 R-4 V H H did not bind to the recombinant extracellular portion of the human Insulin Receptor (IR) immobilized on SPR surface, while it did bind to the control surface of human IGF1 R.
- IR Insulin Receptor
- FIGURE 4 shows imaging results of cell uptake of Cy-5.5-labeled IGF1R-4 V H H and control V H H.
- Cy5.5-labeled IGF1 R-4 V H H (or FC5 V H H as a positive control; Muruganandam et al., 2002; Haqqani et al., 2012) were incubated with SV40 immortalized rat brain endothelial cells (svARBEC) at 4°C (top panels) or at 37 ° C (bottom panels) to assess whether IGF1 R-4 is internalized passively (4 ° C) or through active mechanisms (37 ° C) such as receptor mediated endocytosis.
- svARBEC SV40 immortalized rat brain endothelial cells
- FIGURE 5A shows the sequence for the C-terminal fusion of IGF1 R-4 V H H with a murine Fc fragment (IGF1 R-4-mFc).
- FIGURE 5B A schematic representation of the assembled fusion protein is shown in FIGURE 5B.
- the IGF1 R-4 V H H is shown in black and the murine Fc (CH2 and CH3) is shown in grey in FIGURE 5A and B.
- FIGURE 6A is a flowchart summarizing the use of the in vitro BBB model to assess the ability of various V H Hs to cross the BBB.
- Equimolar amounts (5.6 ⁇ or 1.25 ⁇ ) of positive (FC5) and negative control (A20.1 , a Clostridium difficile toxin A-binding V H H; and EG2, an EGFR binding V H H) V H H and IGF1 R-4 were tested simultaneously for their ability to cross a rat in vitro BBB model.
- SV40-immortalized brain endothelial cells from adult rat are grown in a monolayer on the membrane of an insert in the presence of rat astrocyte-conditioned medium in the bottom chamber and standard medium in the top chamber.
- FIGURE 6B shows the P app values of the four co-administered V H Hs.
- IGF1 R-4 V H H has a significantly higher P app value than FC5, while both negative controls have low P app values, indicating facilitated transport of FC5 and IGF1 R-4 V H H compared to low non-specific transport or paracellular transport of control V H Hs.
- FIGURE 6C shows the P app values of the humanized IGF1 R-4 single-domain antibodies (H2, H3, H4, H5, H6) (black bars), compared to A20.1 V H H (grey bars), which was tested as a control in the same well (the average A20.1 value is indicated by a grey dotted line). The result clearly indicates that simply binding of IGF1 R (as seen for the humanized 6 variant (H6)) is not sufficient to trigger transmigration of the BBB.
- FIGURE 6D shows the P app values of the C-terminal fusion of IGF1 R-4 V H H to mouse Fc (black), compared to the A20.1 -mouse Fc (A20.1 mFc) (grey) which was tested in the same well and has a very low P app value.
- IGF1 R-4-mFc has a significantly higher P app value than FC5-mFc (typically around 180 cm/min, as indicated by the grey dotted line).
- Another IGF1 R- binding V H H, IGF1 R-1 in fusion with Fc has only marginally higher P app value than the internal negative control A20.1 V H H. This result as well demonstrates that not all IGF1 R-binding antibodies transmigrate the BBB.
- IGF1 R-4-mFc has a similar high rate of transport across the BBB compared to the monovalent IGF1 R-4 V H H.
- the results are average P app values obtained in 3-6 independent experiments. Average Papp values of FC5 (V H H) and A20.1 (V H H) are also indicated by dotted lines for comparison.
- FIGURE 7 shows in vivo whole body images of CD-1 mice injected intravenously with PBS (naive) or 2.5 mg/kg of either Cy5.5-IGF1 R-4 V H H or Cy5.5-A20.1 V H H (schematic of injected molecules is shown on top) and scanned in eXplore Optix time-domain optical imager 30 min after injection.
- Bottom panels show ex-vivo brain images of the same animals obtained 1 h after V H H injection and after transcardial perfusion to remove antibodies from the circulation. Arrows indicate high optical signal (light gray) of the fluorescent tracer in the head and in ex-vivo brain in the animal injected with Cy5.5-IGF1 R-4, whereas it cannot be detected in the animal injected with the Cy5.5-A20.1 control (black).
- FIGURE 8A shows the scheme for chemical synthesis of IGF1 R-4 V H H-Galanin conjugate.
- IGF1 R-4 was first conjugated to the NHS group of a Sulfo-SMCC cross-linker (1 ); then maleimide-activated IGF1 R-4-sulfo-SMCC was conjugated to the reduced cysteine of Galanin (2).
- FIGURE 8B shows SDS-PAGE gel of IGF1 R-4 (lane 2), IGF1 R-4-SMCC (lane 3), and IGF1 R-4-Galanin conjugate (lane 4).
- the 'banding' pattern indicates the attachment of 1-2 galanin molecules per IGF1 R-4.
- the same conjugation methods were used to link Galanin with IGF1 R-mFc.
- FIGURE 9 shows IGF1 R-4-mediated brain delivery of the chemically conjugated peptide Galanin.
- FIGURE 9A is a graph showing the ability of IGF1 R-4 to deliver pharmacologically efficacious doses of the analgesic peptide Galanin (3.2 kD) into the brain using Hargraeves pain model.
- CFA complete Freund's adjuvant
- a thermal stimulus is focused on the inflamed or contralateral paw via an angled mirror.
- the latency between stimulus application and paw withdrawal (lick or flick of paw) is interpreted as a measure of the analgesic effect (inhibition of thermal hyperalgesia).
- the peptide Galanin alone cannot penetrate the BBB, as demonstrated by the lack of analgesic effect after systemic (tail-vein) injection of 1 mg/kg Galanin (solid black triangles).
- FIGURE 9B shows these results as area under the curve (AUC) of the response compared to the maximal possible effect (MPE; control paw).
- FIGURE 9C shows dose-dependent (2 mg/kg and 5 mg/kg) inhibition of thermal hyperalgesia in Hargreaves model of inflammatory pain with IGF1 R-4-mFc-Galanin conjugate administred iv.
- FIGURE 9D shows percent reversal of thermal hyperalgesia (Emax) at the peak of response achieved with various doses of A20.1-mFc-Galanin and IGF1 R-4-mFc-Galanin.
- FIGURE 10 shows plasma and CSF levels of IGF1 R-4, and 'positive' control V H H, FC5 and 'negative' control V H H A20.1 30 min after systemic (tail vein) co-administration of 6 mg/kg of each antibody The CSF was collected from cisterna magna.
- Plasma and CSF levels of IGF1 R-4, FC5 and A20.1 were determined using the MRM-ILIS method that 'tracks' and quantifies specific protein peptide signatures. Albumin levels in the CSF were concurrently determined by MRM. All CSF samples having a plasma/CSF ratio lower than 1500 were excluded as potentially blood-contaminated. The CSF/serum ratio for IGF1 R-4 was 1.2% compared to 0.9% for FC5 and 0,017% for A20.1.
- FIGURE 1 1 shows immuno-detection of IGF1 R-4mFc in brain sections 24 h after tail-vein administration of a 6 mg/kg dose. Sacrifice perfusion with PBS was carried out on the rats and brain sections (12 ⁇ ) were obtained using the vibratome. IGF1 R-4mFc was immuno-detected using an anti-mouse Fc antibody (red; red channel only shown in inserts). Blood vessels in the brain section (dentate gyrus, A; frontal cortex, B) were detected using lectin RCA1 (green). IGF1 R-4mFc could be detected in both vessels and outside the vessels (i.e. in the brain parenchyma, transmigrated across the BBB) as indicated by arrowheads.
- FIGURE 12 shows that IGF1 R-4 does not interfere with insulin or IGF-1 signaling through either the insulin receptor or IGF1 R.
- FIGURE 12A is a representative Western blot showing that neither IGF1 R-4, nor any of the other anti-IGF1 R VHH tested (IGF1 R-1 , -3, -5, or -6) induce downstream Akt phosphorylation alone at a concentration of 100nM. Neither does the presence of 100nM of IGF1 R-4, or any of the other anti-IGF1 R VHHS inhibit Akt phosphorylation as induced by 10 g/ml of insulin. The quantitation of Western blot band densities from 3 independent experiments is shown in the bar graph (average +/- SD) below the gel image.
- FIGURE 12B is a representative Western blot showing that neither IGF1 R-4, nor any of the other anti-IGF1 R VHH tested (IGF1 R, -3, -5, or -6) at 100nM induce phosphorylation of Akt on their own and neither inhibit IGF-1 induced Akt phosphorylation (i.e. signaling) induced upon stimulation with 200ng/ml of IGF-1.
- the quantitation of Western blot band densities from 3 independent experiments is shown in the bar graph (average +/-SD) below the gel image.
- FIGURE 12C shows Western blots probed for phosphorylated IGF1 R.
- the present invention relates to Insulin-Like Growth Factor 1 Receptor-specific antibodies, fragments thereof, and uses thereof. More specifically, the present invention relates to Insulin- Like Growth Factor 1 Receptor-specific antibodies or fragments thereof that transmigrate the blood-brain barrier, and uses thereof.
- the present invention provides isolated or purified antibodies or fragments thereof specifically binding to an Insulin-Like Growth Factor 1 Receptor (IGF1 R) epitope, wherein the antibody or fragment thereof transmigrates the blood-brain barrier, and wherein the epitope is specifically bound by the antibody of SEQ ID NO:5.
- IGF1 R epitope may be in the extracellular domain of IGF1 R.
- the present invention provides an isolated or purified antibody or fragment thereof, comprising a complementarity determining region (CDR) 1 sequence of GGTVSPTA (SEQ ID NO:1 ); a CDR2 sequence of ITWSRGTT (SEQ ID NO:2); and a CDR3 sequence of AASTFLRILPEESAYTY (SEQ ID NO:3), wherein the antibody or fragment thereof specifically binds to the Insulin-Like Growth Factor 1 Receptor (IGF1 ).
- CDR complementarity determining region
- immunoglobulin refers to a protein constructed from paired heavy and light polypeptide chains; various Ig isotypes exist, including IgA, IgD, IgE, IgG, and IgM.
- each chain fold folds into a number of distinct globular domains joined by more linear polypeptide sequences.
- V L variable
- C L constant
- C H constant
- C H constant
- Fv antigen binding region
- the light and heavy chain variable regions are responsible for binding the target antigen and can therefore show significant sequence diversity between antibodies.
- the constant regions show less sequence diversity, and are responsible for binding a number of natural proteins to elicit important biochemical events.
- the variable region of an antibody contains the antigen- binding determinants of the molecule, and thus determines the specificity of an antibody for its target antigen.
- the majority of sequence variability occurs in six hypervariable regions, three each per variable heavy (V H ) and light (V L ) chain; the hypervariable regions combine to form the antigen-binding site, and contribute to binding and recognition of an antigenic determinant.
- the specificity and affinity of an antibody for its antigen is determined by the structure of the hypervariable regions, as well as their size, shape, and chemistry of the surface they present to the antigen.
- Various schemes exist for identification of the regions of hypervariability the two most common being those of Kabat and of Chothia and Lesk.
- Kabat et al (1991 ) define the "complementarity-determining regions” (CDR) based on sequence variability at the antigen-binding regions of the V H and V L domains.
- CDR complementarity-determining regions
- Chothia and Lesk (1987) define the "hypervariable loops" (H or L) based on the location of the structural loop regions in the V H and V
- CDR and hypervariable loop regions that are adjacent or overlapping
- those of skill in the antibody art often utilize the terms "CDR” and “hypervariable loop” interchangeably, and they may be so used herein.
- the CDR/loops are referred to herein according to the more recent IMGT numbering system (Lefranc, M.-P. et al., 2003), which was developed to facilitate comparison of variable domains.
- conserved amino acids such as Cys23, Trp41 , Cys104, Phe/Trp118, and a hydrophobic residue at position 89
- FR1 positions 1 to 26; FR2: 39 to 55; FR3: 66 to 104; and FR4: 118 to 129) and of the CDR (CDR1 : 27 to 38, CDR2: 56 to 65; and CDR3: 105 to 117) is provided.
- an "antibody fragment” as referred to herein may include any suitable antigen-binding antibody fragment known in the art.
- the antibody fragment may be a naturally-occurring antibody fragment, or may be obtained by manipulation of a naturally-occurring antibody or by using recombinant methods.
- an antibody fragment may include, but is not limited to a Fv, single-chain Fv (scFv; a molecule consisting of V L and V H connected with a peptide linker), Fab, F(ab') 2 , single domain antibody (sdAb; a fragment composed of a single V L or V H ), and multivalent presentations of any of these.
- Antibody fragments such as those just described may require linker sequences, disulfide bonds, or other type of covalent bond to link different portions of the fragments; those of skill in the art will be familiar with the requirements of the different types of fragments and various approaches and various approaches for their construction.
- the antibody fragment may be an sdAb derived from naturally- occurring sources.
- Heavy chain antibodies of camelid origin Hamers-Casterman et al, 1993
- V H H sdAb have also been observed in shark and are termed V NAR (Nuttall et al, 2003).
- Other sdAb may be engineered based on human Ig heavy and light chain sequences (Jespers et al, 2004; To et al, 2005).
- sdAb includes those sdAb directly isolated from V H , V H H, V L , or V NA R reservoir of any origin through phage display or other technologies, sdAb derived from the aforementioned sdAb, recombinantly produced sdAb, as well as those sdAb generated through further modification of such sdAb by humanization, affinity maturation, stabilization, solubilization, camelization, or other methods of antibody engineering. Also encompassed by the present invention are homologues, derivatives, or fragments that retain the antigen-binding function and specificity of the sdAb.
- SdAb possess desirable properties for antibody molecules, such as high thermostability, high detergent resistance, relatively high resistance to proteases (Dumoulin et al, 2002) and high production yield (Arbabi-Ghahroudi et al, 1997); they can also be engineered to have very high affinity by isolation from an immune library (Li et al, 2009) or by in vitro affinity maturation (Davies & Riechmann, 1996). Further modifications to increase stability, such as the introduction of non-canonical disulfide bonds (Hussack et al, 201 1 ; Kim et al, 2012), may also be brought to the sdAb.
- An sdAb comprises a single immunoglobulin domain that retains the immunoglobulin fold; most notably, only three CDR/hypervariable loops form the antigen-binding site.
- not all CDR may be required for binding the antigen.
- one, two, or three of the CDR may contribute to binding and recognition of the antigen by the sdAb of the present invention.
- the CDR of the sdAb or variable domain are referred to herein as CDR1 , CDR2, and CDR3, and numbered as defined by Lefranc, M.-P. et al. (2003).
- the antibody or fragment thereof of the present invention is specific for Insulin-Like Growth Factor 1 Receptor (IGF1 R), a receptor found on cell surfaces.
- IGF1 R comprises an alpha subunit, which comprises an extracellular part having the insulin-like growth factor 1 binding site, connected by a disulphide bond to the beta subunit, which comprises a small extracellular domain, a transmembrane region, and an intracellular portion.
- the IGF1 receptor assembles into a homo-dimer or may form a heterodimer with the insulin receptor.
- the sequence of IGF1 R may be, but is not limited to that shown in Figure 2 (SwissProt Accession No. P08069; SEQ ID NO: 12), or a sequence substantially identical thereto.
- the antibody or fragment thereof as described herein should not interfere with signaling through the Insulin Receptor (IR) or IGF1 R. Specifically, the antibodies or fragments thereof as described herein should not inhibit AKT phosphorylation induced by insulin, nor should they induce phosphorylation of the IR on their own or inhibit insulin-induced signaling; additionally, the antibodies or fragments thereof described herein should not inhibit IGF-1 -induced phosphorylation of IGF1 R. Moreover, they should not bind to the Insulin Receptor.
- the antibody or fragment thereof may be an sdAb.
- the sdAb may be of camelid origin or derived from a camelid V H H, and thus may be based on camelid framework regions; alternatively, the CDR described above may be grafted onto V NA R, V H H, V h or V L framework regions.
- the hypervariable loops described above may be grafted onto the framework regions of other types of antibody fragments (Fv, scFv, Fab) of any source (for example, mouse) or proteins of similar size and nature onto which CDR can be grafted (for example, see Nicaise et al, 2004).
- the present invention further encompasses an antibody or fragment that is "humanized” using any suitable method known in the art, for example, but not limited to CDR grafting and veneering.
- Humanization of an antibody or antibody fragment comprises replacing an amino acid in the sequence with its human counterpart, as found in the human consensus sequence, without loss of antigen-binding ability or specificity; this approach reduces immunogenicity of the antibody or fragment thereof when introduced into human subjects.
- one or more than one of the CDR defined herein may be fused or grafted to a human variable region (V H , or V L ), to other human antibody (IgA, IgD, IgE, IgG, and IgM), to other human antibody fragment framework regions (Fv, scFv, Fab), or to other proteins of similar size and nature onto which CDR can be grafted (Nicaise et al, 2004).
- V H human variable region
- V L human antibody
- IgA, IgD, IgE, IgG, and IgM human antibody fragment framework regions
- Fv, scFv, Fab human antibody fragment framework regions
- the conformation of said one or more than one hypervariable loop is likely preserved, and the affinity and specificity of the sdAb for its target (i.e., IGF1 R) is likely minimally affected.
- CDR grafting is known in the art and is described in at least the following: US Patent No. 6180370, US Patent No. 5693761 , US Patent No. 6054297, US Patent No. 5859205, and European Patent No. 626390.
- Veneering also referred to in the art as "variable region resurfacing", involves humanizing solvent-exposed positions of the antibody or fragment; thus, buried non- humanized residues, which may be important for CDR conformation, are preserved while the potential for immunological reaction against solvent-exposed regions is minimized.
- Veneering is known in the art and is described in at least the following: US Patent No. 5869619, US Patent No. 5766886, US Patent No. 5821 123, and European Patent No. 519596. Persons of skill in the art would also be amply familiar with methods of preparing such humanized antibody fragments and humanizing amino acid positions.
- the isolated or purified antibody or fragment thereof specific for IGF1 R may be
- the isolated or purified antibody may comprise a sequence selected from the group consisting of:
- IGF1 R-4 QVKLEESGGGLVQAGGSLRLSCEVSGGTVSPTAMGWFRQAPGKEREFVGHITWSR GTTRVASSVKDRFTISRDSAKNTVYLQMNSLKSEDTAVYYCAASTFLRILPEESAYTY WGQGTQVTVSS (SEQ ID NO:5), referred to herein as IGF1 R-4;
- IGF1 R-4JH2 QVQLVESGGGLVQPGGSLRLSCAVSGGTVSPTAMGWVRQAPGKGLEWVGHITWSR GTTRYASSVKGRFTISRDNSKNTVYLQMNSLRAEDTAVYYCAASTFLRILPEESAYTY WGQGTLVTVSS (SEQ ID NO:6), referred to herein as IGF1 R-4JH2;
- IGF1 R-4_H5 QVQLVESGGGLVQPGGSLRLSCAVSGGTVSPTAMGWFRQAPGKEREFVGHITWSR GTTRYASSVKGRFTISRDSSKNTVYLQMNSLRAEDTAVYYCAASTFLRILPEESAYTY WGQGTLVTVSS (SEQ ID NO:9), referred to herein as IGF1 R-4_H5; and or a sequence substantially identical thereto.
- a substantially identical sequence may comprise one or more conservative amino acid mutations.
- one or more conservative amino acid mutations to a reference sequence may yield a mutant peptide with no substantial change in physiological, chemical, physico-chemical or functional properties compared to the reference sequence; in such a case, the reference and mutant sequences would be considered "substantially identical" polypeptides.
- a conservative amino acid substitution is defined herein as the substitution of an amino acid residue for another amino acid residue with similar chemical properties (e.g. size, charge, or polarity).
- These conservative amino acid mutations may be made to the framework regions of the sdAb while maintaining the CDR sequences listed above and the overall structure of the CDR of the antibody or fragment; thus the specificity and binding of the antibody are maintained.
- a conservative mutation may be an amino acid substitution.
- Such a conservative amino acid substitution may substitute a basic, neutral, hydrophobic, or acidic amino acid for another of the same group.
- basic amino acid it is meant hydrophilic amino acids having a side chain pK value of greater than 7, which are typically positively charged at physiological pH.
- Basic amino acids include histidine (His or H), arginine (Arg or R), and lysine (Lys or K).
- neutral amino acid also “polar amino acid”
- hydrophilic amino acids having a side chain that is uncharged at physiological pH, but which has at least one bond in which the pair of electrons shared in common by two atoms is held more closely by one of the atoms.
- Polar amino acids include serine (Ser or S), threonine (Thr or T), cysteine (Cys or C), tyrosine (Tyr or Y), asparagine (Asn or N), and glutamine (Gin or Q).
- hydrophobic amino acid (also “non-polar amino acid”) is meant to include amino acids exhibiting a hydrophobicity of greater than zero according to the normalized consensus hydrophobicity scale of Eisenberg (1984). Hydrophobic amino acids include proline (Pro or P), isoleucine (lie or I), phenylalanine (Phe or F), valine (Val or V), leucine (Leu or L), tryptophan (Trp or W), methionine (Met or M), alanine (Ala or A), and glycine (Gly or G).
- “Acidic amino acid” refers to hydrophilic amino acids having a side chain pK value of less than 7, which are typically negatively charged at physiological pH.
- Acidic amino acids include glutamate (Glu or E), and aspartate (Asp or D).
- Sequence identity is used to evaluate the similarity of two sequences; it is determined by calculating the percent of residues that are the same when the two sequences are aligned for maximum correspondence between residue positions. Any known method may be used to calculate sequence identity; for example, computer software is available to calculate sequence identity. Without wishing to be limiting, sequence identity can be calculated by software such as NCBI BLAST2 service maintained by the Swiss Institute of Bioinformatics (and as found at ca.expasy.org/tools/blast/), BLAST-P, Blast-N, or FASTA-N, or any other appropriate software that is known in the art.
- the substantially identical sequences of the present invention may be at least 90% identical; in another example, the substantially identical sequences may be at least 90, 91 , 92, 93, 94, 95, 96, 97, 98, 99, or 100% identical, or any percentage therebetween, at the amino acid level to sequences described herein. Importantly, the substantially identical sequences retain the activity and specificity of the reference sequence. In a non-limiting embodiment, the difference in sequence identity may be due to conservative amino acid mutation(s). In a non-limiting example, the present invention may be directed to an antibody or fragment thereof comprising a sequence at least 95%, 98%, or 99% identical to that of the antibodies described herein.
- the antibody or fragment thereof of the present invention may also comprise additional sequences to aid in expression, detection or purification of a recombinant antibody or fragment thereof.
- additional sequences known to those of skill in the art may be used.
- the antibody or fragment thereof may comprise a targeting or signal sequence (for example, but not limited to ompA), a detection/purification tag (for example, but not limited to c-Myc, His 5 , or His 6 ), or a combination thereof.
- the additional sequence may be a biotin recognition site such as that described by Cronan et al in WO 95/04069 or Voges et al in WO/2004/076670.
- linker sequences may be used in conjunction with the additional sequences or tags, or may serve as a detection/purification tag.
- the antibody or fragment thereof of the present invention may also be in a multivalent display format, also referred to herein as multivalent presentation.
- Multimerization may be achieved by any suitable method of known in the art. For example, and without wishing to be limiting in any manner, multimerization may be achieved using self-assembly molecules such as those described in Zhang et al (2004a; 2004b) and WO2003/046560, where pentabodies are produced by expressing a fusion protein comprising the antibody or fragment thereof of the present invention and the pentamerization domain of the B-subunit of an AB 5 toxin family (Merritt & Hoi, 1995).
- a multimer may also be formed using the multimerization domains described by Zhu et al.
- antibody form is a fusion of the antibody or fragment of the present invention with a coiled-coil peptide resulting in a multimeric molecule (Zhu et al., 2010).
- Other forms of multivalent display are also encompassed by the present invention.
- the antibody or fragment thereof may be presented as a dimer, a trimer, or any other suitable oligomer.
- Fc domains for example, but not limited to human Fc domains.
- the Fc domains may be selected from various classes including, but not limited to, IgG, IgM, or various subclasses including, but not limited to lgG1 , lgG2, etc.
- the Fc gene in inserted into a vector along with the sdAb gene to generate a sdAb-Fc fusion protein (Bell et al, 2010; Iqbal et al, 2010); the fusion protein is recombinantly expressed then purified.
- multivalent display formats may encompass chimeric formats of anti-IGF1 R-4 V H H linked to an Fc domain, or bi- or tri-specific antibody fusions with two or three anti-IGF1 R-4 V H H recognizing unique epitopes.
- Such antibodies are easy to engineer and to produce, can greatly extend the serum half-life of sdAb, and may be excellent tumor imaging reagents (Bell et al., 2010).
- the Fc domain in the multimeric complex as just described may be any suitable Fc fragment known in the art.
- the Fc fragment may be from any suitable source; for example, the Fc may be of mouse or human origin.
- the Fc may be the mouse Fc2b fragment or human Fc1 fragment (Bell et al, 2010; Iqbal et al, 2010).
- the Fc fragment may be fused to the N-terminal or C-terminal end of the anti-IGF1 R-3 V H H or humanized versions of the present invention.
- the multimerized isolated or purified antibody or fragment as just described may comprise the sequence of SEQ ID NO:10, 38, or 11.
- Each subunit of the multimers described above may comprise the same or different antibodies or fragments thereof of the present invention, which may have the same or different specificity. Additionally, the multimerization domains may be linked to the antibody or antibody fragment using a linker, as required; such a linker should be of sufficient length and appropriate composition to provide flexible attachment of the two molecules, but should not hamper the antigen-binding properties of the antibody.
- the antibody or fragment thereof as described herein may transmigrate across the blood brain barrier.
- the brain is separated from the rest of the body by a specialized endothelial tissue known as the blood-brain barrier (BBB).
- BBB blood-brain barrier
- the endothelial cells of the BBB are connected by tight junctions and efficiently prevent many therapeutic compounds from entering the brain.
- one specific feature of the BBB is the existence of enzymatic barrier(s) and high level(s) of expression of ATP-dependent transporters on the abluminal (brain) side of the BBB, including P-glycoprotein (Gottesman et al., 1993; Watanabe, 1995), which actively transport various molecules from the brain into the blood stream (Samuels, 1993).
- the present invention also encompasses nucleic acid sequences encoding the molecules as described herein. Given the degeneracy of the genetic code, a number of nucleotide sequences would have the effect of encoding the polypeptide, as would be readily understood by a skilled artisan.
- the nucleic acid sequence may be codon-optimized for expression in various micro-organisms.
- the present invention also encompasses vectors comprising the nucleic acids as just described. Furthermore, the invention encompasses cells comprising the nucleic acid and/or vector as described.
- the present invention further encompasses the isolated or purified antibody or fragments thereof immobilized onto a surface using various methodologies; for example, and without wishing to be limiting, the antibody or fragment may be linked or coupled to the surface via His- tag coupling, biotin binding, covalent binding, adsorption, and the like. Immobilization of the antibody or fragment thereof of the present invention may be useful in various applications for capturing, purifying or isolating proteins.
- the solid surface may be any suitable surface, for example, but not limited to the well surface of a microtiter plate, channels of surface plasmon resonance (SPR) sensorchips, membranes, beads (such as magnetic-based or sepharose- based beads or other chromatography resin), glass, plastic, stainless steel, a film, or any other useful surface such as nanoparticles, nanowires and cantilever surfaces.
- SPR surface plasmon resonance
- the invention also encompasses the antibody or fragment thereof as described above linked to a cargo molecule.
- the cargo molecule may be any suitable molecule, which is delivered across the BBB by the antibody or fragment thereof.
- the cargo molecule may have a molecular weight in the range of about 1 kD to about 200 kDa; for example, the cargo molecule may have a molecular weight of about 1 , 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 105, 110, 115, 120, 125, 130, 135, 140, 145, 150, 155, 160, 165, 170, 175, 180, 185, 190, 195, or 200 kDa, or any weight therebetween, or any range of weights defined by any two aforementioned weights.
- the cargo molecule may have a molecular weight of 1 kDa (for example, but not limited to a small molecule such as Cy5.5), 1-10 kDa (for example, but not limited to a peptide such as galanin, 3kDa), about 80 kDa (for example, but not limited to a Fc fragment, enzyme, protein, antibody etc), or about 200kDa (for example, but not limited to a monoclonal antibody).
- 1 kDa for example, but not limited to a small molecule such as Cy5.5
- 1-10 kDa for example, but not limited to a peptide such as galanin, 3kDa
- about 80 kDa for example, but not limited to a Fc fragment, enzyme, protein, antibody etc
- 200kDa for example, but not limited to a monoclonal antibody
- the cargo molecule may be a detectable agent, a therapeutic agent, a drug, a peptide, an enzyme, a growth factor, a cytokine, a receptor trap, an antibody or fragment thereof (e.g., IgG, scFv, Fab, V H H, V H , V L , etc) a chemical compound, a carbohydrate moiety, DNA-based molecules (anti-sense oligonucleotide, microRNA, siRNA, plasmid), a cytotoxic agent, viral vector (adeno-, lenti-, retro), one or more liposomes or nanocarriers loaded with any of the previously recited types of cargo molecules, or one or more nanoparticle, nanowire, nanotube, or quantum dots.
- a detectable agent e.g., IgG, scFv, Fab, V H H, V H , V L , etc
- DNA-based molecules anti-sense oligonucleotide, microRNA,
- the cargo molecule as described above may be a detectable agent.
- the IGF1 R- specific antibody or fragment thereof may be linked to a radioisotope, a paramagnetic label, a fluorophore, a fluorescent agent, Near Infra-Red (NIR; for example Cy5.5) fluorochrome or dye, an echogenic microbubble, an affinity label, a detectable protein-based molecule, nucleotide, quantum dot, nanoparticle, nanowire, or nanotube or any other suitable agent that may be detected by imaging methods.
- the antibody or fragment thereof may be linked to the cargo molecule using any method known in the art (recombinant technology, chemical conjugation, etc.).
- the cargo molecule as described herein may be linked, also referred to herein as "conjugated", to the antibody or fragment thereof by any suitable method known in the art.
- the cargo molecule may be linked to the peptide by a covalent bond or ionic interaction.
- the linkage may be achieved through a chemical cross-linking reaction, or through fusion using recombinant DNA methodology combined with any peptide expression system, such as bacteria, yeast or mammalian cell- based systems.
- a suitable linker may be used. Methods for linking an antibody or fragment thereof to a cargo molecule such as a therapeutic or detectable agent would be well-known to a person of skill in the art.
- the cargo molecule may be a detectable label, a radioisotope, a paramagnetic label such as gadolinium or iron oxide, a fluorophore, Near Infra-Red (NIR) fluorochrome or dye, an echogenic microbubble, an affinity label (for example biotin, avidin, etc), enzymes, or any other suitable agent that may be detected by diagnostic imaging methods.
- the anti-IGF1 R-4 or fragment thereof may be linked to a near infrared fluorescence (NIRF) imaging dye, for example and not wishing to be limiting Cy5.5, Alexa680, Dylight680, or Dylight800.
- NIRF near infrared fluorescence
- the present invention further provides an in vitro method of detecting IGF1 R, comprising contacting a tissue sample with one or more than one isolated or purified antibody or fragment thereof of the present invention linked to a detectable agent.
- the IGF1 R-antibody complex can then be detected using detection and/or imaging technologies known in the art.
- the tissue sample in the method as just described may be any suitable tissue sample, for example but not limited to a serum sample, a vascular tissue sample, a tumour tissue sample, or a brain tissue sample; the tissue sample may be from a human or animal subject.
- the step of contacting is done under suitable conditions, known to those skilled in the art, for formation of a complex between the antibody or fragment thereof and IGF1 R.
- the step of detecting may be accomplished by any suitable method known in the art, for example, but not limited to optical imaging, immunohistochemistry, molecular diagnostic imaging, ELISA, imaging mass spectrometry, or other suitable method.
- the isolated or purified antibody or fragment thereof linked to a detectable agent may be used in immunoassays (IA) including, but not limited to enzyme IA (EIA), ELISA, "rapid antigen capture", “rapid chromatographic IA", and "rapid EIA”.
- the present invention also provides an in vivo method of detecting IGF1 R expression in a subject.
- the method comprises administering one or more than one isolated or purified antibody or fragment thereof as described herein linked to a detectable agent to the subject, then detecting the labelled antibody or fragment thereof bound to IGF1 R.
- the step of detecting may comprise any suitable method known in the art, for example, but not limited to PET, SPECT, or fluorescence imaging, or any other suitable method.
- the method as just described may be useful in detecting the expression of IGF1 R in blood vessels or tissues, for example but not limited to tumor tissues.
- the in vivo detection step in the methods described above may be whole body imaging for diagnostic purposes or local imaging at specific sites, such as but not limited to brain vessels or brain tumor vessels, in a quantitative manner to assess the progression of disease or host response to a treatment regimen.
- the detection step in the methods as described above may be immunohistochemistry, or a non-invasive (molecular) diagnostic imaging technology including, but not limited to:
- Optical imaging ⁇ Positron emission tomography (PET), wherein the detectable agent is an isotopes such as 11 C, 3 N, 15 0, 18 F, 64 Cu, 62 Cu, 1 24 l, 76 Br, 82 Rb and 6 8Ga, with 18 F being the most clinically utilized; • Single photon emission computed tomography (SPECT), wherein the detectable agent is a radiotracer such as 99m Tc, 111 In, 123 l, 201 TI, 133 Xe, depending on the specific application;
- PET Positron emission tomography
- SPECT Single photon emission computed tomography
- Magnetic resonance imaging wherein the detectable agent may be, for example and not limited to gadolinium, iron oxide nanoparticles and carbon-coated iron-cobalt nanoparticles thereby increasing the sensitivity of MRI for the detection of plaques.
- Contrast-Enhanced Ultrasonography or ultrasound, wherein the detectable agent is at least one acoustically active and gas-filled microbubble.
- Ultrasound is a widespread technology for the screening and early detection of human diseases. It is less expensive than MRI or scintigraphy and safer than molecular imaging modalities such as radionuclide imaging because it does not involve radiation.
- the present invention further provides a method of transporting a molecule of interest across the blood-brain barrier.
- the method comprises administering the molecule linked to an antibody or fragment thereof as described herein to a subject; the antibody or fragment thereof transmigrates the blood-brain barrier.
- the molecule may be any desired molecule, including the cargo molecules as previously described; the molecule may be "linked" to the antibody or fragment thereof using any suitable method, including, but not limited to conjugation or expression in a fusion protein.
- the administration may be by any suitable method, for example parenteral administration, including but not limited to intravenous (iv), subcutaneous (sc), and intramuscular (im) administration.
- the antibody or fragment thereof of the present invention 'ferries' the molecule of interest across the BBB to its brain target.
- the present invention also encompasses a composition comprising one or more than one isolated or purified antibody or fragment thereof as described herein.
- the composition may comprise a single antibody or fragment as described above, or may be a mixture of antibodies or fragments.
- the antibodies may have the same specificity, or may differ in their specificities; for example, and without wishing to be limiting in any manner, the composition may comprise antibodies or fragments thereof specific to IGF1 R (same or different epitope).
- the composition may also comprise a pharmaceutically acceptable diluent, excipient, or carrier.
- the diluent, excipient, or carrier may be any suitable diluent, excipient, or carrier known in the art, and must be compatible with other ingredients in the composition, with the method of delivery of the composition, and is not deleterious to the recipient of the composition.
- the composition may be in any suitable form; for example, the composition may be provided in suspension form, powder form (for example, but limited to lyophilised or encapsulated), capsule or tablet form.
- the carrier when the composition is provided in suspension form, may comprise water, saline, a suitable buffer, or additives to improve solubility and/or stability; reconstitution to produce the suspension is effected in a buffer at a suitable pH to ensure the viability of the antibody or fragment thereof.
- Dry powders may also include additives to improve stability and/or carriers to increase bulk/volume; for example, and without wishing to be limiting, the dry powder composition may comprise sucrose or trehalose.
- the composition may be so formulated as to deliver the antibody or fragment thereof to the gastrointestinal tract of the subject.
- the composition may comprise encapsulation, time- release, or other suitable technologies for delivery of the antibody or fragment thereof. It would be within the competency of a person of skill in the art to prepare suitable compositions comprising the present compounds.
- the invention also encompasses a method of quantifying an amount of a cargo molecule delivered across the BBB of a subject, wherein the cargo molecule is linked to one or more than one isolated or purified antibody or fragment thereof as described herein, the method comprising a) collecting cerebrospinal fluid (CSF) from the subject; and b) using targeted proteomics methods to quantify the amount of the cargo molecule linked to one or more than one antibody or fragment thereof in the CSF.
- CSF cerebrospinal fluid
- the cargo molecule may be any desired molecule, including the cargo molecules, as previously described; the isolated or purified antibody or fragment thereof transmigrates the blood-brain barrier; and the molecule may be "linked" to the antibody or fragment thereof using any suitable method, including, but not limited to conjugation or expression in a fusion protein, as previously described.
- the CSF is collected from a subject using any suitable method known in the art.
- the amount of CSF required for targeted proteomics method in step b) may be between about 1 to 10 ⁇ ; for example, the amount of CSF required may be about 1.0, 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 4.5, 5.0, 5.5, 6.0, 6.5, 7.0, 7.5, 8.0, 8.5, 9.0, 9.5, or 10 ⁇ , or any amount therebetween, or any range defined by the amount just described.
- the antibody or fragment linked to the cargo molecule may have been administered to the subject prior to collection of the CSF. A suitable delay between administration and delivery of the antibody or fragment linked to the cargo molecule across the BBB may be required.
- the delay may be at least 30 minutes following administration of the antibody or fragment linked to the cargo molecule; for example and without wishing to be limiting in any manner, the delay may be at least 30 minutes, 1 hour, 1.5 hour, 2 hours, 2.5 hours, 3 hours, 3.5 hours, 4 hours, 4.5 hours, or 5 hours.
- the targeted proteomics methods used to quantify the amount of the one or more than antibody or fragment thereof linked to the cargo molecule may be any suitable method known in the art.
- the targeted proteomics method may be a mass spectrometry method, such as but not limited to multiple reaction monitoring using an isotopically labeled internal standard (MRM-ILIS; see for example Haqqani et al., 2013).
- MRM is advantageous in that it allows for rapid, sensitive, and specific quantification of unlabelled targeted analytes (for example, an antibody or fragment thereof as described herein) in a biological sample.
- the multiplexing capability of the assay may allow for quantification of both the antibody or fragment thereof and the cargo molecule.
- Example 1 Purification of IGF1 R recombinant fragment
- a 933 amino acid long recombinant fragment of the extracellular domain of IGF1 (shown by the grey box in Figure 1 ; see also amino acids 1 -933 of SEQ ID NO:12) was prepared.
- the fragment comprised an N-terminal 30 amino acid signal peptide, the full alpha subunit, a furin cleavage site (RKRR, SEQ ID NO: 13; separating alpha and beta subunits), as well as the majority of the extracellular portion of the beta subunit ( Figures 1 and 2).
- Lentivirus particles expressing IGF1 R 933 -His were generated in the packaging cell line 293SF-PacLV, as detailed previously (Broussau et al., 2008). Briefly, the cells were transfected with the vector using polyethylenimine. Fresh medium (LC-SFM), containing 1 pg/ml doxycycline and 10 g/ml cumate, was added to the cells 5 hours post- transfection and the supernatants containing LV particles were collected after 48-72 hours, concentrated by ultracentrifugation at 100,000xg for 2h at 4 ° C on a 20% sucrose cushion (Gaillet B et al.
- the LV suspension was prepared by mixing 200-500 ⁇ of LV with 8 pg/mL of polybrene and incubating it for 30min at 37°C. The freshly made LV suspension was added to the cells 4 hours after seeding. After 24h, 500 pL medium supplemented with dextran sulfate was added to the cells. To increase the level of expression the cells were re-transduced up to 6 times using the same protocol after 3-4 days of cell recovery. Finally the cells were expanded in 6- well plates and shaker flasks. Large scale protein production and purification. The clone identified as the highest producer was expanded in shaker or spinner flasks.
- Protein production was initiated by the addition of 1 pg/ml cumate in fresh medium, followed by a 24 h incubation at 37 ° C and a 4-8 day incubation at 30 ° C. Cells were removed by centrifugation and the supernatants filtered and concentrated (10x) using the Tangential Flow Filtration Systems (Pellicon ultrafiltration cassettes, EMD Millipore).
- the IGF1 R 933 -His was purified using a HisPrep column (GE Healthcare) according to the manufacturer's instructions. Briefly, the concentrated sample was applied to a His-prep FF (16/10) column (GE Healtcare), equilibrated and washed with 50 mM sodium phosphate, 300mM NaCI, 5mM imidazole pH 7.5 and eluted with the 50 mM sodium phosphate, 300mM NaCI, 500mM imidazole pH 7.5. A step elution with 0.1 M sodium citrate pH 4.5 to pH 2.5 was used to elute the protein and peak fractions were pooled.
- Buffer exchange was performed by ultrafiltration using a 50 kDa cut-off membrane or a desalting column with a buffer containing 50 mM sodium phosphate, 150 mM NaCI and 0.01 % Tween-80, pH 7.2. Purity of both proteins was verified by SDS-PAGE and they were stored at -80°C until used (see subsequent examples).
- a llama was immunized with the recombinant IGF1 R 933 -His fragment obtained in Example 1.
- One male llama (Lama glama) was immunized by sub-cutaneous, lower-back injection of IGF1 R 933 -His recombinant antigen (Example 1 ).
- 200 pg of antigen diluted in PBS to 1 ml was injected together with 1 ml of Freund's Complete Adjuvant (Sigma, St. Louis, MO).
- IGF1 R 933 -His antigen plus Freund's Incomplete Adjuvant were performed on days 22, 36, and 50.
- Pre-immune blood was drawn before the first injection on day 1 and served as a negative control.
- Blood (10-15 ml) was collected on days 29, 43, 57 and 84.
- the blood from day 84 was processed immediately to isolate peripheral blood mononuclear cells (PBMC).
- the blood was diluted 1 :1 with phosphate buffered saline (PBS) and PBMCs were purified from the blood using the Lymphoprep Tube (Axis Shield). The cells were counted and stored as aliquots of about 1 x 10 7 cells at -80°C for future use.
- PBS phosphate buffered saline
- Pre-immune and post-immune total serum was analyzed for a specific response to IGF1 R 933 - His antigen by ELISA on day 57.
- Llama sera from day 84 were fractionated as previously described (Doyle et al, 2008). The resulting fractions, A1 (HCAb), A2 (HCAb), G1 (HCAb) and G2 (clgG) were analyzed for specific binding to the IGF1 R 933 -His antigen by ELISA.
- IGF1 R 933 -His recombinant antigen diluted in PBS was incubated overnight (100 pl/well, 18 h, 4°C) in 96 well Maxisorp plates (Nalgene, Nunc) to coat the plates. Plates were blocked with bovine serum albumin (BSA), washed with PBS-T (PBS + 0.05% (v/v) Tween-20), and serial dilutions of pre-immune total serum, post-immune total serum (day 57), and fractionated serum (day 84) were applied.
- BSA bovine serum albumin
- RNA isolated from the PBMCs in Example 2 was isolated from approximately 10 7 PBMCs collected on day 84 post-immunization (Example 2) using the QIAamp RNA Blood Mini Kit (Qiagen). About 5 pg of total RNA was used as template for first strand cDNA synthesis with oligo dT primers using the First-Strand cDNA Synthesis Kit (GE Healthcare). The cDNA was amplified by an equimolar mix of three variable region-specific sense primers:
- MJ1 5'-GCCCAGCCGGCCATGGCCSMKGTGCAGCTGGTGGAKTCTGGGGGA- 3' (SEQ ID NO:16)
- MJ2 5'-GCCCAGCCGGCCATGGCCCAGGTAAAGCTGGAGGAGTCTGGGGGA-
- MJ3 5'-GCCCAGCCGGCCATGGCCCAGGCTCAGGTACAGCTGGTGGAGTCT- 3' (SEQ ID NO:18), and two antisense CH 2 -specific primers: CH 2 : 5'-CGCCATCAAGGTACCAGTTGA-3' (SEQ ID NO: 19)
- CH 2 b 3 5'-GGGGTACCTGTCATCCACGGACCAGCTGA-3' (SEQ ID NO:20).
- the PCR reaction mixture was set up in a total volume of 50 ⁇ with the following components: 1 -3 ⁇ cDNA, 5 pmol of MJ1 -3 primer mixture, 5 pmol of CH 2 or CH 2 b 3 primers, 5 ⁇ of 10x reaction buffer, 1 ⁇ of 10 mM dNTP, 2.5 unit of Taq DNA polymerase (Hoffmann-La Roche).
- the PCR protocol consisted of an (i) initial step at 94°C for 3 min, (ii) followed by 30 cycles of 94°C for 1 min, 55°C for 30 s, 72°C for 30 s and (iii) a final extension step at 72°C for 7 min.
- the amplified PCR products were run on a 2% agarose gel and two major bands were observed: a band of about 850 bp, corresponding to conventional IgG, and a second band of around 600 bp, corresponding to the V H H-CH2 region of camelid heavy chain antibodies.
- the smaller bands were cut and purified using the QIAquick Gel Extraction Kit (Qiagen) and re- amplified in a second PCR in a total volume of 50 ⁇ using 1 ⁇ (30ng) of DNA template, 5 pmol of each of MJ7 primer (5'-CATGTGTAGACTCGCG GCCCAGCCGGCCATGGCC-3' SEQ ID NO:21 ) and MJ8 primer (5 -
- the PCR protocol consisted of (i) an initial step at 94°C for 3 min, (ii) followed by 30 cycles of 94°C for 30 s, 57°C for 30 s and 72°C for 1 min and (iii) a final extension step at 72°C for 7 min.
- the amplified PCR products ranging between 340 bp and 420 bp and corresponding to V H H fragments of heavy chain antibodies, were purified using the QIAquick PCR Purification Kit (Qiagen), digested with Sfi ⁇ restriction enzyme (New England BioLabs) and re-purified using the same kit.
- 80 pg of pMED1 phagemid vector (Arbabi-Ghahroudi et al, 2009b) were digested with Sfi ⁇ overnight at 50°C.
- 20 units of Xho ⁇ and Pst ⁇ restriction enzymes were added to cut the excised fragment and the digestion reaction was incubated for an additional 2 h at 37°C.
- digested phagemid DNA 60 g was ligated with 6 of digested (Sfil for 5h at 50 ° C) V H H fragments (molar ratio 1 :1 ) for 3 h at room temperature using LigaFast Rapid DNA Ligation System (Promega) according to the manufacturer's instructions.
- the ligated plasmids were purified using the QIAquick PCR Purification Kit (Qiagen), eluted in a final volume of 100 ⁇ , and transformed into electrocompetent TG1 E. coli (Stratagene) using 5 ⁇ of ligated DNA aliquot per transformation reaction, as described (Arbabi-Ghahroudi et al, 2009b).
- the size of the library was determined to be 5 x 10 7 as described in (Arbabi-Ghahroudi et al, 2009b). 20 clones were sequenced and contained all unique V H H sequences.
- the E. coli, containing the library was grown for 2-3 h at 37°C, 250 rpm in the presence of 2% (w/v) glucose. The bacteria were then pelleted, resuspended in 2xYT/Amp/Glu (2xYT medium with 100 pg/ml ampicillin and 2% (w/v) glucose) with 35% (v/v) glycerol and stored at -80°C in small aliquots. Panning experiments were essentially performed as described in (Arbabi et al, 1997).
- the phage particles in the culture supernatant were incubated with 1/5 volume of 20% PEG 8000/2.5M NaCI on ice for 1 h and centrifuged at 10,000 rpm for 15 min.
- the phage pellets were re-suspended in 1.5 ml of sterile PBS, titrated and used as input phage for panning.
- 96-well MaxisorpTM plates were coated with 10pg of recombinant IGF1 R 933 -His per well in 100 ⁇ PBS overnight at 4°C. The wells were rinsed with PBS and blocked with PBS plus 1 % (w/v) casein for 2 h at 37°C.
- phages were added to the blocked wells and incubated for 2 h at 37°C. After 10x washing with PBS/0.1% (v/v) Tween 20, the bound phages were eluted with 0.1 M triethylamine, neutralized (50 ⁇ of 1 M Tris-HCI, pH 7.4) and mixed with exponentially growing TG1 £. coli. Titration of eluted phage was performed and infected bacteria were superinfected with M13K07 and grown overnight at 37°C. The purified phage from the overnight culture was used as the input for the next round of panning. The panning was continued for three further rounds.
- the IGF R-4 V H H structure was then built by mutating the main template structure to the IGF1 R-4 sequence; this included 35 mutations at various positions.
- the IGF1 R-4 V H H model was then refined by energy minimization with the AMBER force-field and a stepwise release of constraints, ranging from the CDR loops, which were relaxed first, to the backbone heavy atoms of the framework region, which were fully relaxed only in the last stage.
- the CDR-H3 loop of the V H H model was then refined by Monte-Carlo-minimization (MCM) conformational sampling, in which dihedral angles in the CDR-H3 region were sampled followed by energy minimization.
- MCM Monte-Carlo-minimization
- Human heavy-chain framework was selected by standard sequence homology comparison against the human germline databases (VBASE), against other sequence databases (Genbank and SwissProt), and against the human framework consensus sequences. BLAST searches were conducted to retrieve sequence matches with highest homology in the framework region only (i.e., excluding CDR) while matching the length of the CDR.
- the closest human frameworks identified for IGF1 R-4 V H H corresponded to the human VH-3 subgroup.
- Several human germline VH-3 framework sequences that were most similar to IGF1 R-4 V H H were also retained in addition to the human VH-3 consensus sequence.
- the IGF1 R-4 V H H framework sequences required 18 mutations in order to arrive at the consensus human VH-3 sequence for 100% framework humanization.
- the IGF1 R-4 V H H model and its fully- humanized counterpart were characterized to estimate the humanness index, antigen contact propensity index, to delineate the CDR, canonical residues, unusual framework residues, potential glycosylation sites, buried residues, Vernier zone residues, and proximity to CDR.
- the analysis of these data suggested the design of several humanized variants for the anti- IGF1 R V H H, each variant having varying numbers of back-mutations to the parent camelid residues at various positions. 6 humanized variants were designed for IGF1 R-4 V H H (IGF1 R- 4_H1 to IGF1 R-4JH6), where variants contained up to 10 back-mutations. Some of these camelid back-mutations residues were buried inside the V H H domain core and hence are not expected to induce an immune response.
- V H H constructs IGF1 R-4 identified in Example 3 and the humanized versions constructed in Example 4 (collectively referred to herein as "V H H constructs") were sub-cloned into expression plasmids for protein expression and purification.
- a phagemid vector containing the DNA of the V H H IGF1 R-4 clone was purified using the MiniPrep Kit (Qiagen).
- the IGF1 R-binding V H H IGF1 R-4 was PCR amplified from the pMED1 phagemid vector, adding an N-terminal Bbsl cleavage site and a BamHI cleavage site at the C- terminus, using primers:
- IGF1 R-4 V H H constructs were expressed in TG1 E. coli.
- An overnight culture in LB/amp/glu medium (LB medium supplemented with 100 ⁇ g/ml ampicillin and 1 % glucose) was subcultured at 1 :100 dilution in 1 L LB/amp/glu.
- Protein expression was induced at an OD 600 of 0.8 - 0.9 by the addition of IPTG to a final concentration of 0.2 mM.
- the culture was grown at 220 rpm overnight at 37°C.
- the bacteria were pelleted by centrifuging at 6000 rpm for 12 min; the pellet was re-suspended in 35 ml of cold TES buffer (0.2M Tris-CI pH 8.0, 20% sucrose, 0.5mM EDTA). The suspension was incubated on ice and vortexed every 10 min for 1 hour. Then 45 ml of cold TES (1/8 volume of total volume) was added and immediately vortexed for 1 minute and for 15 seconds every 10 min thereafter for 1 hour to extract the protein from the periplasm.
- cold TES buffer 0.2M Tris-CI pH 8.0, 20% sucrose, 0.5mM EDTA
- the resulting supernatant containing V H H was filtered through a 0.22 ⁇ membrane and dialysed overnight into immobilized metal-affinity chromatography (IMAC) buffer A (10 mM HEPES pH 7.0, 500 mM NaCI).
- IMAC immobilized metal-affinity chromatography
- the protein was purified using HiTrap Chelating HP columns (GE Healthcare) as described previously (Arbabi-Ghahroudi 2009b). Eluted protein fractions were analyzed by SDS-PAGE and Western blotting before being dialysed against PBS as described previously (Arbabi-Ghahroudi 2009b). The purified protein fractions were pooled and dialyzed against PBS + 3 mM EDTA, and the protein concentration was determined.
- the anti-IGF1 R V H H IGF1 R-4 constructs expressed and purified in Example 4 were characterized using size exclusion chromatography, melting temperature analysis, and surface plasmon resonance.
- Size exclusion chromatography Size exclusion chromatography employing SuperdexTM 75 (GE Healthcare) was used to eliminate any possible aggregates prior to Surface Plasmon Resonance (SPR) analysis.
- the running buffer used was 10mM HEPES, pH7.4 containing 150mM NaCI, 3mM EDTA and 0.005% P20. Concentrations of fractions used for SPR analysis were determined by measuring absorbance at 280nm wavelength.
- the SEC analysis suggested that all IGF1 R-4 V H H constructs, except H1 were monomeric, based on the elution volume compared to standards ( Figure 3A). IGF1 R-4 H1 was therefore excluded from further evaluation.
- Melting temperature The thermal stability of the IGF1 R-4 V H H and humanized constructs was evaluated using melting temperature (T m ) measurement by CD spectroscopy.
- T m melting temperature
- the spectra were recorded over a wavelength range of 180 - 260 nm with scanning speed of 50 nm/min, digital integration time (DIT) of 4 s, a band width of 1 nm, data pitch of 1 nm, and an integration time of 1 s.
- DIT digital integration time
- T m Melting temperature
- SPR Surface Plasmon Resonance
- the SPR analyses were further used to demonstrate that IGF1 R-4 V H H does not bind to the same epitope on the receptor as the natural ligand IGF-1 ( Figure 3D).
- the experiment was set up, carried out and analysed as described above. Binding to freshly immobilized human IGF1 R surface was studied by injection of human IGF1 ligand at a concentration of 25xK D followed by co-injection of IGF1 R-4 both at concentrations 25xK D , with flow rates of 20pl/min and injection times of 5 minutes. Surfaces were regenerated by washing with running buffer.
- the natural ligand IGF-1 bound the receptor with saturation reached at 70RU; the IGF1 R-4 V H H bound to the IGF1 R - IGF-1 complex with the expected -265RU (relative units; binding saturation).
- the simultaneous binding of both IGF1 R-4 V H H and IGF-1 to the receptor demonstrates that both bind to different epitopes.
- IGF1 R-4 binding to human Insulin Receptor was also evaluated using SPR.
- the experiment was set up, carried out and analysed as described above. Briefly, besides human IGF1 R, approximately 4000 Resonance Units (RU) of recombinant human Insulin Receptor (R&D systems) was immobilized on a separate cell on a Sensor chip CM5. Subsequently, different concentrations of IGF1 R-4 were flowed over the surfaces (0.5-50nM). While binding to IGF1 R could be observed at already 0.5nM IGF1 R-4, no binding to the Insulin Receptor surface was observed even at 50nM (FIGURE 3E), suggesting that IGF1 R-5 cannot bind the Insulin receptor.
- Example 7 Internalization of the IGF1R-4 by brain endothelial cells
- IGF1 R-4 V H H was labeled with NHS-Cy5.5. The labeling was done through a stable amine bond between primary amines (at the N-terminus and/or on lysine side chains of the protein) and the NHS ester. Typically, 10% v/v of 1 M carbonate/bicarbonate buffer (759mM bicarbonate, 258mM carbonate) pH 9.3 was added to 4mg of V H H prepared in PBS (1.06mM KH 2 P0 4 , 154mM NaCI, 5.6mM Na 2 HP0 4 ) pH7.4 and adjusted to a final concentration of 4mg/ml_.
- 1 M carbonate/bicarbonate buffer 759mM bicarbonate, 258mM carbonate
- the NHS-Cy5.5 dissolved in DMSO at 10mg/mL, was added at a 2X molar ratio of dye to protein.
- the mixture was incubated at room temperature for 2 h with several inversions in a 1.5ml_ microcentrifuge tube. Following the incubation, unbound dye and reaction bi- products were filtered using Zeba Spin Desalting Columns, 7K MWCO (Pierce) and measured using a Beckman DU530 spectrophotometer (Beckman Coulter).
- IGF1 R-4 accumulated in vesicles inside the cells, likely endosomes, suggesting that the antibody internalized into cells through an active transport mechanism. Similar behaviour was observed for FC5, previously shown to enter the cells by energy-dependent endocytosis via clathrin- coated vesicles (Abulrob et al.2005)
- IGF1 R-4 V H H fused to a murine antibody fragment crystallisable (Fc; mFc2b) was prepared, expressed, and isolated.
- the sequence of the IGF1R-4-mFc construct is shown in Figure 5A, with a schematic of the molecule shown in Figure 5B.
- the fusion protein also comprised a N-terminal signal peptide ( M E FG LSWVFLVAI LKG VQC; SEQ ID NO:37) that is not shown in the sequence of Figure 5A.
- the IGF1 R-4 cDNA was cloned into mammalian expression vector pTT5 (Durocher, 2002) containing the mouse Fc2b fragment. Polyplexes of the resulting vector were pre-formed by mixing 25 ml of plasmid DNA solution containing 187.5 pg pTT5-IR5mFc2b, 56.25 pg pTT- AKTdd (activated mutant of Protein Kinase B), 18.75 pg pTTo-GFP (to monitor transfection efficiency), and 1 12.5 pg of salmon testis DNA (Sigma-Aldrich); and 25 ml of PEI solution containing 1.125 mg of PEIproTM (PolyPlus Transfection), both made in F17 medium.
- pTT5 Durocher, 2002
- Polyplexes of the resulting vector were pre-formed by mixing 25 ml of plasmid DNA solution containing 187.5 pg pTT5-IR5mFc2b, 56.25 pg
- the mixture was incubated for 10 minutes prior to addition to the cell culture.
- a 450 ml culture of CHO cells stably expressing a truncated EBNA1 protein (CHO-3E7) and grown in F17 medium (Invitrogen) was transfected with 50 ml of polyplexes. Twenty four hours post-transfection, the culture was fed with 12.5 ml of 40% (w/v) tryptone N1 (Organotechnie) solution and 1.25 ml of 200 mM valproic acid solution. The culture was harvested 8 days post-transfection and clarified by centrifugation.
- Clarified medium was filtered through a 0.22 pm membrane prior to its application on a column packed with 5 ml of protein-A MabSelect SuRe resin (GE Healthcare). After loading, the column was washed with 5 volumes of phosphate-buffered saline pH 7.1 (PBS) and the antibody was eluted with 100 mM sodium citrate buffer pH 3.0. Fractions containing the eluted antibody were pooled and a buffer exchange was performed by loading on a desalting Econo-Pac column (BioRad) equilibrated in PBS. Desalted antibody was then sterile-filtered by passing through a Millex GP (Millipore) filter unit (0.22 pm) and aliquoted.
- Millex GP Millex GP
- IGF1 R-4 V H H its humanized versions (H2 to H6), and IGF1 R-4-mFc (Example 8) transmigrate the blood-brain barrier
- an in vitro assay was used as described below.
- a flow chart summarizing the experiment is shown at Figure 6A.
- Sv-ARBEC SV40-immortalized Adult Rat Brain Endothelial Cells
- BBB blood-brain barrier
- Sv-ARBEC 80,000 cells/membrane
- the bottom chamber of the insert assembly contained 2 ml of growth medium supplemented with the immortalized neonatal rat astrocytes-conditioned medium in a 1 :1 (v/v) ratio.
- Results are shown in Figures 6B-D.
- the results given are average P app values obtained from several independent experiments. Both negative controls have a very low P app value, indicating that non-specific transport or paracellular transport of these V H Hs across the BBB model is minimal.
- IGF1 R-4 V H H has a high P app value, indicating high rate of transport across the in vitro BBB model.
- the P app for IGF1 R-4 V H H is 4-fold higher than that of a positive control - BBB- permeable V H H FC5 (WO 02/057445).
- the results provide strong indication that IGF1 R-4 undergoes a facilitated trans-cellular transport across brain endothelial cells in vitro and could have similar properties in vivo.
- Humanized IGF1 R-4 V H H variants H3, H4 and H5 showed similar (H3) or slightly lower P app values compared to IGF1 R-4 V H H; H2 variant showed a significantly attenuated ability to cross in vitro BBB model, whereas H6 variants completely lost this ability, showing the same P app value as internal control V H H A20.1 ( Figure 6C) and was excluded from further study.
- the P app value for IGF1 R-4mFc ( Figure 6D) was similar to that of a 6-fold smaller IGF1 R-4 V H H ( Figure 6B), indicating that IGF1 R-4 can 'carry' large (antibody- size) molecules across the BBB.
- FC5mFc was 3-fold lower than that for IGF1 R-4mFc. It is worth noting that constructs comprising IGF1 R-5 or a humanized version linked to a cargo molecule (MW ⁇ 1 10kDa or 180kDa) have also been shown to be ferried across the BBB (data not shown).
- IGF1 R-binding V H H IGF1 R-1 was also tested as mFc fusion in this assay.
- the IGF1 R-1 mFc had only marginally higher P app value that control A20.1 V H H ( Figure 6D), indicating that only a subset of IGF1 R-binding V H Hs isolated from immune llama library has BBB-transmigrating properties.
- MS/MS using data-dependent acquisition to identify all ionizible peptides.
- 3 to 5 most intense fragment ions were chosen.
- An initial SRM assay was developed to monitor these fragments at attomole amounts of the digest (about 100-300 amol). Fragments that showed reproducible intensity ratios at low amounts (i.e., had Pearson r2 > 0.95 compared to higher amounts) were considered stable and were chosen for the final SRM assay.
- elution times for each peptide were also included, with care taken to not choose peptides that have close m/z (mass-to-charge ratio) and elution times.
- a typical multiplexed SRM analysis of V H H in cell media or body fluids involved spiking known amount of ILIS (0.1-10 nM) followed by injecting 100-400 ng of CSF or cultured media proteins (0.3-1 ⁇ _) or about 50-100 ng of serum proteins (1-3 nanoliters) into the nanoLC-MS system.
- the precursor m/z of each target peptide ion was selected in the ion trap (and the remaining unrelated ions were discarded) at the specified elution time for the target, followed by collision induced dissociation (CID) fragmentation, and selection of only the desired fragment ions in the ion trap for monitoring by the detector.
- CID collision induced dissociation
- raw files generated by the LTQ were converted to the standard mass spectrometry data format mzXML and intensities were extracted using an in- house software called Q-MRM (Quantitative-MRM; see Haqqani et al. 2012), which is a modified version of MatchRx software.
- Q-MRM Quantitative-MRM; see Haqqani et al. 2012
- V H H was defined as detectable in a sample if the fragments of at least one of its peptides showed the expected intensity ratios, i.e., the final intensity values showed a strong Pearson correlation r >0.95 and p ⁇ 0.05 compared with the final intensities values of its corresponding pure V H H.
- V H H medium, serum, CSF
- the digests were acidified with acetic acid (5% final concentration) and analyzed on a reversed-phase nanoAcquity UPLC (Waters, Milford, MA) coupled to LTQ XL ETD or LTQ Orbitrap ETD mass spectrometer (ThermoFisher, Waltham, MA). The desired aliquot of the sample was injected and loaded onto a 300 pm I.D.
- PepMaps C18 trap (ThermoFisher) then eluted onto a 100 pm I.D. x 10 cm 1.7 pm BEH130C18 nanoLC column (Waters) using a gradient from 0% - 20% acetonitrile (in 0.1% formic) in 1 minute, 20% - 46% in 16 min, and 46% - 95% in 1 min at a flow rate of 400 nL/min.
- the eluted peptides were ionized into the mass spectrometer by electrospray ionization (ESI) for MS/MS and SRM analysis using CID for fragmentation of the peptide ions.
- ESI electrospray ionization
- the CID was performed with helium as collision gas at normalized collision energy of 35% and 30 ms of activation time. Ion injection times into linear ion trap were adjusted by the instrument using an automatic gain control (AGC) target value of 6 x 10 3 and a maximum accumulation time of 200 ms.
- AGC automatic gain control
- the V H H -specific peptides used for detection and quantification of each V H H in multiplexed assay are shown in Table 2.
- IGF1 R-4 V H H To determine whether IGF1 R-4 V H H accumulates in the brain after intravenous (iv) injection, IGF1 R-4 V H H and negative control A20.1 V H H were conjugated to the near-infrared fluorescent tracer, Cy5.5 and purified as described in Example 7. 2.5 mg/kg of either IGF1 R-Cy5.5 or A20.1 Cy5.5 (in 150 ⁇ volume) were injected via tail vein into CD-1 nude mice, and they were imaged live in prone position in eXplore Optix preclinical imager MX2 (Advanced Research Technologies, QC) 30 min after injection.
- mice injected with Cy5.5-IGF1 R-4 showed enhanced optical signal in the head region in vivo (upper panels, arrow) and in ex- Vo brain after perfusion (bottom panels, arrows), whereas Cy5.5-A20.1 - injected mice showed only low background signal.
- IGF1 R-4 V H H can deliver imaging agent (Cy5.5, 1 kD) across the blood-brain barrier in vivo.
- the neuropeptide Galanin was chemically conjugated to IGF1 R-4 V H H or to IGF1 R4-mFc and administered systemically.
- Galanin is a neuroactive peptide that produces analgesia by binding GalR1 and GalR2 expressed in brain tissue.
- Galanin has no analgesic effects because it cannot cross the BBB on its own (Robertson et al., 201 1 ).
- the IGF1 R-4 V H H was conjugated to a rat Galanin (Gal) fragment with cysteamide modified C- terminus (Biomatic) (GWTLNSAGYLLGPHAIDNHRSFSDKHGLT-cysteamide, SEQ ID NO:36).
- the scheme for conjugation is shown in Figure 8A.
- the unreacted Sulfo-SMCC was removed from the maleimide-activated IGF1 R-5 V H H using a 10ml 7K Zeba column (Pierce). Prior to sample loading, the column was washed 3 times with 5ml PBS and spun at 1000xg for 2 min. After sample loading, the column was topped-up with 200 ⁇ of PBS and was spun for 2 min at 1000xg. As for the IGF1 R-Fc constructs, 5 mg were reacted with -68 pi of Sulfo-SMCC (6.5x excess molar ratio) in the same way as described above.
- cysteamide modified C-TERM galanin (Gal-cya) was prepared by dissolving 10 mg of lyophilized powder in 10 ml of endotoxin free water to make a 1 mg/ml stock (the galanin-cya powder has a small amount of DTT to prevent disulfide bridge formation during purification). Finally, 100 ⁇ of 0.5M EDTA was added (5mM final concentration). The purified maleimide-activated IGF1 R-4 V H H and IGF1 R-Fc constructs (2.6 ml) were diluted to 5ml with 0.5X PBS, 2.5mM EDTA and then 5ml or 1 ml Gal-cya respectively was added while vortexing.
- IGF1 R-4-Gal or IGF1 R-4-mFc-Gal (Example 1 1 ) transmigrate the blood-brain barrier
- an in vivo assay was utilized, previously described in International Patent Publication No. WO 2011/127580.
- a rat model of inflammatory hyperalgesia similar to that described by Hargreaves et al. (1988), was used. Animals were housed in groups of three (Hargreaves model) per polypropylene cage, and were allowed free access to food and water. Experiments were done in a 12 h light/dark cycle at a temperature of 24°C and a relative humidity of 50 ⁇ 5%. All animal procedures were approved by the NRC's Animal Care Committee and were in compliance with the Canadian Council of Animal Care guidelines.
- CFA complete Freund's adjuvant
- the paw withdrawal latency was measured by the application of a radiant stimulus in the plantar surface in both hind paws (inflamed an non-inflamed control paw) using the plantar Analgesia Meter equipment for paw stimulation (IITC Model # 336TG Life Science, Inc.). The time taken by the animal to respond by licking or flicking its paw was interpreted as positive response (paw withdrawal latency).
- the light-intensity lamp was adjusted to elicit baseline paw withdrawal latencies between 17 to 20 s in both hind paws before CFA administration. If a withdrawal response does not occur within 20 s, the light beam was automatically turned off to avoid tissue damage and the paw was assigned the maximum score.
- IGF1 R-4-Gal To determine whether IGF1 R-4-Gal is delivered across the blood brain barrier and can engage target receptors (GalR1 and 2) in brain parenchyma, the rats received one tail vein injection of IGF1 -4-Galanin (3mg/kg ) or IGF1 R-4mFc-Galanin (2 mg/kg or 5 mg/kg) or control compounds three days post-CFA injection.
- the paw withdrawal latency (PWL) was tested for each hind paw (inflamed and non-inflamed) every 15 min for 3 hours.
- An increased latency of paw withdrawal indicates suppression of thermal hyperalgesia , which can only be obtained through successful delivery of Galanin into the brain parenchyma by IGF1 R-4.
- Galanin can only induce analgesia when present in the brain parenchyma and on its own cannot cross an intact BBB (Robertson et al., 2011 ).
- Results were analyzed as temporal courses of Paw Withdrawal Latencies (PWL, sec) versus time (min or hrs) ( Figures 9A and C).
- Figure 9B shows the results as area under the curve (AUC) and compares it to the % of Maximum Possible Effect (%MPE).
- Figure 9D shows the results as percent reversal (of thermal hyperalgesia) at the peak response (Emax).
- IGF1 R-4 V H H can 'ferry' molecules of at least 3000 Da across the BBB using receptor-mediated transcytosis pathway (the combined MW of antibody-peptide conjugate is about 18 kDa). Active, receptor mediated transport is required since the BBB is known to prevent the passage of all hydrophilic molecules greater than 0.5 kDa.
- IGF1 R4-mFc- Galanin produces a dose-dependent suppression of thermal hyperalgesia whereas A201.mFc- Galanin is ineffective. This suggests that IGF1 R-4 V H H can ferry molecules similar in size to antibodies ( ⁇ 80kD) across the BBB.
- the IGF1R-4mFc-Galanin was about 5-fold more potent in suppressing thermal hyperalgesia than IGF1R-4-Galanin, suggesting that bi-valent display and extended plasma half-life contribute to improved efficacy of brain delivery.
- IGF1 R-4 V H H is able to cross into the brain, and specifically into the cerebrospinal fluid (CSF), as well as to quantify its presence in CSF and serum.
- the anesthetized rat was placed in a metal frame instrument (generously provided by Dr. Vinicio Granados-Soto; CINVESTAV, Mexico) and immobilised using earbars. The position of the animal's head was maintained downward at approximately 45°. A depressible surface with the appearance of a rhomb between the occipital protuberance and the spine of the atlas was made visible by rubbing the cotton embedded in ethanol (75%) over this surface.
- Serum and CSF samples were analyzed by mass spectrometry and nanoLC-SRM based quantification as described in Example 9.
- Albumin Ratio Intensity per nl_ of plasma analyzed / Intensity per nl_ of CSF analyzed A ratio of 1500 and below was considered as blood contaminated.
- Results are shown in Figure 10. Animals were co-injected with 6 mg/kg each of IGF1 R-4, FC5 or A20.1 , and CSF and serum were collected 30 min after injection. The figure shows that CSF/serum ratio for IGF1 R-4 is 1.2%, compared to 0.98% for FC5 and 0.017% for A20.1 , suggesting that both IGF1 R-4 and FC5 have higher CSF penetration and brain exposure from co-injected control antibody, A20.1.
- brains of animals were harvested immediately following animal perfusion with PBS 24h after 6mg/kg tail-vein injection of either IGF1 R-4-mFc or A20.1mFc.
- the brains were frozen and sectioned on cryotome into 12 pm sections. Sections were fixed for 10 min RT in 100% Methanol, washed 3x in PBS and incubated for 1 h in 10% normal goat serum (NGS) containing 0.3% TritonX-100 in 1x PBS.
- NGS normal goat serum
- Goat anti-m-lgG Fcy-cy3 (Cat#115-165-071 , Jackson Immuno Research, lot#106360) 1 :200 in 5%NGS containing 0.3% TritonX-100 in 1XPBS was applied overnight at 4 ° C Sections were washed three times in 1x Vasculature-staining lectin RCAI (Cat# FL-1081 , Vector) 1 :500 in 1xPBS was then added for 10 min. After washing three times with 1 xPBS, sections were covered with a cover slip in Dako fluorescent mounting medium (Cat#S3023, Dako) and spiked with 2pg/mL Hoechst (Cat#H3570, Invitrogen) to stain nuclei. Images were captured with Olympus 1X81 Fluorescent Microscope using 10X and 60X Objectives and channels as shown in Table 3.
- the antibody of the invention does not interfere with the physiological function of the receptor- i.e., signaling induced by its natural ligand, IGF-1 - when engaging its receptor for drug delivery via receptor-mediated transcytosis.
- IGF1 R-4 V H H or IGF1 R-4-mFc do not interfere with physiological signaling through IGF1 R or the related insulin receptor (IR) induced by their natural ligands.
- IGF1 R-4 induces signaling through IGF1 R or IR alone, or interferes with signalling as stimulated by the receptor's natural ligands, IGF-1 or insulin, their effect on phosphorylation of the receptors themselves or receptor-stimulated downstream kinase, Akt, was determined in SV-ARBEC cells.
- SV-ARBEC were grown to confluence in M199 base medium supplemented with peptone, D- glucose, BME amino acids, BME vitamins, antibiotic/antimycotic solution and fetal bovine serum, according to art-known methods.
- the cells were switched into serum free medium 18 h prior to treatment.
- IGF1 R-4 VHH or IGF1 R-4-Fc fusion (" ⁇ ⁇ or 500nM) was added to the cells 1 h prior to the addition of either 200ng/ml IGF-1 , 10pg/ml of insulin or vehicle.
- the cells were incubated with ligands or vehicle for 20 minutes and then washed twice in Hank's balanced salt solution.
- Cells were subsequently lysed using 1x RIPA buffer (Cell Signaling Technology) supplemented with 1 % Triton-x 100 and protease inhibitor cocktail (Sigma). The cells were given 2 x 20 second bursts in a water bath sonicator and lysates were clarified by centrifugation at 14,000rpm for 10 minutes. Protein concentration was determined using DC protein assay system (BIO-RAD laboratories). Equal [ig of protein samples were resolved on a 4-20% gradient SDS polyacrylamide gel at 125V and transferred to PVDF membrane.
- Phospho-Akt (Ser 473) was detected by overnight incubation in 1 :1000 dilution of the primary antibody against this target (Cell Signaling Technology) followed by a 1 h incubation with goat anti-rabbit IgG-HRP secondary antibody then reacted with ECL Plus reagent and visualized on autoradiography film. Densitometry values were determined using Un-Scan-lt software (Silk Scientific Inc.). The results are shown in Figure 12.
- Arbabi-Ghahroudi M., To, R., Gaudette, N., Hirama, T., Ding, W., MacKenzie, R., and Tanha, J. (2009a) Protein Eng. Des. Sel. 22, 59-66.
- Arbabi-Ghahroudi M., MacKenzie, R., and Tanha, J. (2009b) Methods Mol. Biol. 525, 187-216.
- Bell, A. Wang, Z.J., Arbabi-Ghahroudi, M., Chang, T.A., Durocher, Y., Trojahn, U., Baardsnes, J., Jaramillo, M.L., Li, S., Baral, T.N., O'Connor-McCourt, M., Mackenzie, R., and Zhang, J. (2010) Cancer Lett. 289, 81-90.
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